Voltage distribution for controlling CMOS RF switch

1. A circuit for amplifying radio frequency signals, the circuit comprising: a first circuit configured to amplify a radio frequency (RF) signal so as to provide a first gain; a second circuit configured to amplify the RF signal so as to provide a second gain; a switch formed as a complementary metal oxide semiconductor (CMOS) device and including a source and a drain, a gate between the source and the drain, a first well formed about the source and drain, and a second well formed about the first well; and a voltage distribution component configured to provide different bias voltages to at least one of the first and second wells.

2. The circuit of claim 1 wherein the switch is configured to be capable of being in first second states by application of first and second gate bias voltages, respectively.

3. The circuit of claim 2 wherein the first state of the switch results in the RF signal being amplified by the first circuit, and the second state of the switch results in the RF signal being amplified by the second circuit.

4. The circuit of claim 3 wherein the first and second wells are parts of a triple-well CMOS structure.

5. The circuit of claim 3 wherein the voltage distribution component is further configured provide the first and second gate bias voltages.

6. The circuit of claim 3 wherein the voltage distribution component is configured to provide different bias voltages for the first and second states of the switch to each of the first and second wells.

7. The circuit of claim 3 wherein the voltage distribution component is further configured to pass through at least one input bias voltage as a single output.

8. The circuit of claim 3 wherein the voltage distribution component is further configured to provide the different bias voltages based on an input control logic signal.

9. The circuit of claim 3 wherein each of the first and second circuits includes one or more power amplifiers, and wherein the switch is connected in series to the one or more power amplifiers of the first circuit such that the first and second states of the switch correspond to ON and OFF states of the switch, respectively.

10. The circuit of claim 9 wherein the first gain provided by the one or more power amplifiers of the first circuit is lower than the second gain provided by the one or more power amplifiers of the second circuit.

11. The circuit of claim 10 wherein the first and second bias voltages for the first well are selected for the ON and OFF states of the switch to provide the circuit with a desirable linearity when providing both first and second amplification gains.

12. The circuit of claim 9 wherein at least one of the one or more power amplifiers of the first circuit is formed on the CMOS substrate.

13. The circuit of claim 12 wherein at least one of the one or more power amplifiers of the second circuit is formed on the CMOS substrate.

14. A wireless device comprising: a transceiver configured to generate a radio frequency (RF) signal; a power amplification circuit including a first circuit configured to amplify the RF signal to provide a first gain and a second circuit configured to amplify the RF signal to provide a second gain, the power amplification circuit further including a switch formed as a complementary metal oxide semiconductor (CMOS) device and having a source and a drain, a gate between the source and the drain, a first well formed about the source and drain, and a second well formed about the first well, the power amplification circuit further including a voltage distribution component configured to provide different bias voltages to at least one of the first and second wells; and an antenna configured to facilitate transmission of the RF signal having the first gain or the second gain.

15. A tangible computer-readable medium having stored thereon computer-executable instructions that, if executed by one or more computing devices, cause the one or more computing devices to perform operations comprising: determining whether to amplify a radio frequency (RF) signal by a first gain or a second gain, the first gain achievable by a first circuit having one or more power amplifiers and configured to be turned on or off by a triple-well CMOS switch having an isolated well about the switch's source and drain, and an isolation well about the isolated well, the switch in the on state resulting in the RF signal being amplified by the first gain, and the switch in the off state resulting in the RF signal being amplified by the second gain; and generating a control signal for application of bias voltages to the switch, the control signal formatted to allow application of different bias voltages for the on and off states of the switch to at least one of the isolated and isolation wells.

16. The tangible computer-readable medium of claim 15 wherein the instructions further include applying or inducing application of a bias voltage for the on state of the switch to the at least one of the isolated and isolation wells upon determination that the RF signal is to be amplified by the first gain.

17. The tangible computer-readable medium of claim 15 wherein the instructions further include applying or inducing application of a bias voltage for the off state of the switch to the at least one of the isolated and isolation wells upon determination that the RF signal is to be amplified by the second gain.

18. The tangible computer-readable medium of claim 15 wherein the control signal is further formatted to allow application of different bias voltages for the on and off states of the switch to the gate.

19. A method for controlling amplification radio frequency signals, the method comprising: determining whether to amplify a radio frequency (RF) signal by a first gain or a second gain, the first gain achievable by a first circuit having one or more power amplifiers and configured to be turned on or off by a triple-well CMOS switch having an isolated well about a source and a drain of the switch, and an isolation well about the isolated well, the switch in the on state resulting in the RF signal being amplified by the first gain, and the switch in the off state resulting in the RF signal being amplified by the second gain; and generating a control signal for application of bias voltages to the switch, the control signal formatted to allow application of different bias voltages for the on and off states of the switch to at least one of the isolated and isolation wells.

20. A system for amplifying radio frequency signals, the system comprising: a means for amplifying a radio frequency (RF) signal to provide first and second gains; a means for switching a complementary metal oxide semiconductor (CMOS) switch between first and second states, the switch including a source and a drain, a gate between the source and the drain, and a first well formed about the source and drain, the switch configured to be capable of being in the first and second states to facilitate the amplification of the RF signal by the first and second gains; a means for distributing different bias voltages for the first and second states of the switch to at least one of the first and second wells.